Multifunctional docking station
Technical Field
The invention relates to the field of communication engineering, in particular to a multifunctional docking station.
Background
The rapid development of TYPE-C interface equipment, such as mobile phones, IPADs, notebook computers and the like, is very convenient for people to live, work and entertain, and brings great convenience to people by virtue of the advantages of lightness, thinness and the like. Compared with desktop computers, but also has certain defects, such as TYPE-C mobile devices, the portable desktop computers have fewer accessories and cannot enjoy full functions and comfort of the desktop computers like in offices. Therefore, the multifunctional docking station well makes up for the disadvantages of the notebook computer.
Docking station is simply a base for extending the functions of a notebook computer through interfaces and slots to allow the connection of external accessories such as drivers, displays, keyboards, printers and scanners.
Currently, existing docking stations still have a number of deficiencies and need improvement. For example, the conventional docking station is not complete enough in function, and cannot meet the requirements of users in various aspects, and the existing docking station is not reasonable enough in appearance and structural design and needs to be further optimized.
Disclosure of Invention
The invention provides a multifunctional docking station, which aims to solve the problems that the traditional equipment cannot meet the increasing user requirements and the existing equipment is not complete in function and unreasonable in appearance design.
The technical scheme of the invention is as follows:
a multifunctional docking station comprises a shell, wherein the top of the shell is provided with a first interface area; a second interface area is arranged on one side of the shell; a third interface area is arranged on the other side of the shell; the bottom of casing is equipped with broken line formula data input end, broken line formula data input end is connected with the data input line.
Further, the first interface area comprises a USB/F interface, an HDMI/F interface, a VGA/F interface and an RJ45 interface; the second interface region comprises a TYPE-C INPUT interface; the third interface area comprises a TYPE-C/F interface, an SD interface and a TF interface; the TYPE-C/F interface comprises a TYPE-C uplink end and a TYPE-C downlink end; the TYPE-C uplink end is electrically connected with a VL chip, the VL chip is electrically connected with the USB/F interface and the NET service end, and the NET service end is electrically connected with the RJ45 interface; the TYPE-C uplink end is electrically connected with a second PS chip through a first PS chip, and the second PS chip is electrically connected with the HDMI interface and the first voltage distribution unit; the first PS chip is electrically connected with the ITE chip, and the ITE chip is electrically connected with the VGA interface and the second voltage distribution unit; the TYPE-C downlink end is electrically connected with the voltage output unit and the PD MOS unit.
The TPYE-C interface is electrically connected with the first PS chip, the first PS chip is electrically connected with the second PS chip and the ITE chip respectively, the second PS chip is electrically connected with the HDMI interface, and the ITE chip is electrically connected with the VGA interface.
Furthermore, the number of the USB/F interfaces is at least two. Two or more USB data interfaces can better meet the user requirements and meet the requirement that a plurality of devices needing to be connected by using the USB are used simultaneously.
Further, the USB/F interface is a USB3.0 interface. The USB3.0 interface has the advantages of rapid data transmission, high efficiency, user time saving and user experience improvement.
Further, the power supply voltage range of the first voltage distribution unit is 5-3.3V or 1.2V; the range of the power supply voltage of the second voltage distribution unit is 5-3.3V or 1.8V; the output voltage of the voltage output unit is 5V, 9V, 12V or 15V. The working states of the invention are two types: one is that the external mobile device does not need to be charged, and the data input line can be directly connected to the external mobile device; the other is the case that the external mobile device needs to be charged, besides the data input line is connected to the external mobile device, the external mobile device also needs to be connected with a power supply, and the input voltage/current is 15V/3A. The data input line has the functions of data transmission and current transmission, and the voltage output by the voltage output unit can be 5V or 9V for a mobile phone or 12V or 15V for a tablet or a notebook at the TYPE-C downlink end.
Further, the VL chip is a VL817 chip; the first PS chip is a PS83388 chip; the second PS chip is a PS176 chip; the ITE chip is an ITE6515 chip. The adoption of the PS83388 chip, the PS176 chip and the ITE6515 chip is a choice for optimizing circuit transmission on the basis of meeting the use requirements after long-term practice and summary.
Further, the NET server side supports 10/100/1000M network communication interfaces. The current commonly used 10/100/1000M network communication interface is supported, and the use requirements of most users are met.
Compared with the prior art, the invention has the following beneficial effects:
compared with the traditional docking station, the docking station has the advantages of complete functions, comprises a TPYE-CINPUT interface, a TYPE-C/F interface, a USB/F interface, an HDMI/F interface, a VGA/F interface, an RJ45 interface, an SD interface and a TF interface, and can meet the requirement that a single docking station supplies various devices; on the other hand, the data input line of the invention adopts the hidden design, which is beautiful and saves space.
The invention adopts a circuit layout connection mode that the TPYE-C/F interface is electrically connected with the first PS chip, the first PS chip is respectively and electrically connected with the second PS chip and the ITE chip, the second PS chip is electrically connected with the HDMI interface, and the ITE chip is electrically connected with the VGA interface, thereby solving the problem that the traditional docking station can not support the HDMI and the VGA interface simultaneously.
Drawings
FIG. 1 is a schematic view of the top structure of the housing of the present invention;
FIG. 2 is a front view of the housing of the present invention;
FIG. 3 is a schematic view of a side structure of the housing of the present invention;
FIG. 4 is a schematic view of another side of the housing of the present invention;
FIG. 5 is a bottom view of the housing of the present invention;
FIG. 6 is a circuit layout of the present invention;
in the figure: 1. a housing; 11. a first interface region; 12. a second interface region; 13. a third interface region; 14. a broken-line data input; 15. a data input line; 111. a USB/F interface; 112. an HDMI/F interface; 113. a VGA/F interface; 114. an RJ45 interface; 121. TYPE-C INPUT interface; 131. a TYPE-C/F interface; 132. an SD interface; 133. a TF interface; 1311. a TYPE-C upstream end; 1312. a TYPE-C downstream end; 16. a VL chip; 18. a NET server; 19. a first PS chip; 200. a second PS chip; 202. a first voltage distribution unit; 203. an ITE chip; 205. a second voltage distribution unit; 206. a voltage output unit; 207. PD MOS unit.
Detailed Description
The invention is described in detail below with reference to the attached drawing figures:
as shown in fig. 1-5, a multi-functional docking station comprises a housing 1, a first interface area 11 is provided on the top of the housing 1; a second interface area 12 is arranged at one side of the shell 1; the other side of the shell 1 is provided with a third interface area 13; the bottom of the shell 1 is provided with a broken line type data input end 14, and the broken line type data input end 14 is connected with a data input line.
As shown in fig. 6, the first interface area 11 includes a USB/F interface 111, an HDMI/F interface 112, a VGA/F interface 113, and an RJ45 interface 114; the second interface region 12 includes a TYPE-C INPUT interface 121; the third interface region 13 includes a TYPE-C/F interface 131, an SD interface 132, and a TF interface 133; the TYPE-C/F interface 131 includes a TYPE-C upstream 1311 and a TYPE-C downstream 1312; the TYPE-C uplink terminal 1311 is electrically connected with the VL chip 16, the VL chip 16 is electrically connected with the USB/F interface 111 and the NET server 18, and the NET server 18 is electrically connected with the RJ45 interface 114; the TYPE-C uplink terminal 1311 is electrically connected to the second PS chip 200 through the first PS chip 19, and the second PS chip 200 is electrically connected to the HDMI interface 112 and the first voltage distribution unit 202; the first PS chip 19 is electrically connected to the ITE chip 203, and the ITE chip 203 is electrically connected to the VGA interface 113 and the second voltage distribution unit 205; the TYPE-C down terminal 1312 is electrically connected to the voltage output unit 206 and the PD MOS unit 207.
The TPYE-C/F131 interface is electrically connected with the first PS chip 19, the first PS chip 19 is electrically connected with the second PS chip 200 and the ITE chip 203 respectively, the second PS chip 203 is electrically connected with the HDMI interface 112, and the ITE chip 203 is electrically connected with the VGA interface 113, so that the problem that the traditional docking station cannot support the HDMI and the VGA interface simultaneously is solved. The SD interface 132 and the TF interface 133 can be selected from one to be used, and the SD interface and the TF interface adopted in the present invention are conventional interfaces in the prior art, and the circuit connection manner thereof is also a conventional connection manner in the prior art, and therefore, the details are not described herein.
Wherein, the TYPE-C INPUT interface 121 is a working mode of welding wire TYPE 5Gbps high-speed data and MA x 20V/5A charging; the TYPE-C/F interface 131 charges the PD in an uplink mode, and the power is 100W; USB2.0 downlink data transmission mode; the HDMI interface 112 supports 3840@2160 resolution high definition video output; the VGA/F interface 113 supports 1080P video output.
The number of the USB/F interfaces 111 is at least two. Two or more USB data interfaces can better meet the user requirements and meet the requirement that a plurality of devices needing to be connected by using the USB are used simultaneously.
The USB/F interface 111 is a USB3.0 interface. The USB3.0 interface has the advantages of rapid data transmission, high efficiency, user time saving and user experience improvement.
The first voltage distribution unit 202 supplies power in a voltage range of 5-3.3V or 1.2V; the second voltage distribution unit 205 supplies power with a voltage range of 5-3.3V or 1.8V; the voltage output unit 206 outputs one of the specifications of 5V, 9V, 12V, or 15V. The working states of the invention are two types: one is the case that the external mobile device does not need to be charged, and the data input line 15 can be directly connected to the external mobile device; the other is the case that the external mobile device needs to be charged, the data input line 15 is connected to the external mobile device and also needs to be connected to a power supply, and the input voltage/current of the TYPE-C uplink terminal 1311 is 15V/3A. In the above two cases, the data input line 15 plays a role in data transmission and current transmission, and at the TYPE-C downlink end 1312, the voltage output by the voltage output unit 206 may be 5V or 9V for a mobile phone, or 12V or 15V for a tablet or a notebook.
The VL chip 16 is a VL817 chip; the first PS chip 19 is a PS83388 chip; the second PS chip 200 is a PS176 chip; the ITE chip 203 is an ITE6515 chip. The adoption of the PS83388 chip, the PS176 chip and the ITE6515 chip is a choice for optimizing circuit transmission on the basis of meeting the use requirements after long-term practice and summary.
The NET server 18 supports 10/100/1000M network communication interfaces. The current commonly used 10/100/1000M network communication interface is supported, and the use requirements of most users are met.
The specific working mode of the invention is as follows:
the data input line is pulled out of the casing 1 from a broken line type data input end 14 at the bottom of the casing 1, and the data line is connected with the notebook computer. Auxiliary devices such as drivers, displays, keyboards, printers, scanners, etc. which need to be used are connected to the corresponding interfaces, and can be used simultaneously or separately as needed.
Compared with the prior art, the invention has the following beneficial effects:
compared with the traditional docking station, the docking station has the advantages of complete functions, comprises a TPYE-CINPUT interface 121, a TYPE-C/F interface 131, a USB/F interface 111, an HDMI/F interface 112, a VGA/F interface 113, an RJ45 interface 114, an SD interface 132 and a TF interface 133, and can meet the requirement that a single docking station supplies multiple devices; on the other hand, the data input line of the invention adopts the hidden design, which is beautiful and saves space.
The invention adopts a circuit layout connection mode that the TPYE-C/F interface 131 is electrically connected with the first PS chip 19, the first PS chip 19 is respectively and electrically connected with the second PS chip 200 and the ITE chip 203, the second PS chip 200 is electrically connected with the HDMI interface 112, and the ITE chip 203 is electrically connected with the VGA interface 113, thereby solving the problem that the traditional docking station cannot simultaneously support the HDMI and the VGA interface.
The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent structural changes made by using the contents of the present specification and the drawings, which are directly or indirectly applied to other related technical fields, are included in the scope of the present invention.